Data-driven modeling for different stages of pandemic response

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[Preprint]. 2020 Sep 21:arXiv:2009.10018v1.

Data-driven modeling for different stages of pandemic response

Aniruddha Adiga¹, Jiangzhuo Chen¹, Madhav Marathe^{1

2}, Henning Mortveit^{1

3}, Srinivasan Venkatramanan¹, Anil Vullikanti^{1

2}

Affiliations

¹ Biocomplexity Institute and Inititiative.
² Department of Computer Science, University of Virginia.
³ Department of Systems Engineering and Environment.

PMID: 32995364
PMCID: PMC7523119

Data-driven modeling for different stages of pandemic response

Aniruddha Adiga et al. ArXiv. 2020.

[Preprint]. 2020 Sep 21:arXiv:2009.10018v1.

Authors

Aniruddha Adiga¹, Jiangzhuo Chen¹, Madhav Marathe^{1

2}, Henning Mortveit^{1

3}, Srinivasan Venkatramanan¹, Anil Vullikanti^{1

2}

Affiliations

¹ Biocomplexity Institute and Inititiative.
² Department of Computer Science, University of Virginia.
³ Department of Systems Engineering and Environment.

PMID: 32995364
PMCID: PMC7523119

Update in

Data-Driven Modeling for Different Stages of Pandemic Response.
Adiga A, Chen J, Marathe M, Mortveit H, Venkatramanan S, Vullikanti A. Adiga A, et al. J Indian Inst Sci. 2020;100(4):901-915. doi: 10.1007/s41745-020-00206-0. Epub 2020 Nov 16. J Indian Inst Sci. 2020. PMID: 33223629 Free PMC article. Review.

Abstract

Some of the key questions of interest during the COVID-19 pandemic (and all outbreaks) include: where did the disease start, how is it spreading, who is at risk, and how to control the spread. There are a large number of complex factors driving the spread of pandemics, and, as a result, multiple modeling techniques play an increasingly important role in shaping public policy and decision making. As different countries and regions go through phases of the pandemic, the questions and data availability also changes. Especially of interest is aligning model development and data collection to support response efforts at each stage of the pandemic. The COVID-19 pandemic has been unprecedented in terms of real-time collection and dissemination of a number of diverse datasets, ranging from disease outcomes, to mobility, behaviors, and socio-economic factors. The data sets have been critical from the perspective of disease modeling and analytics to support policymakers in real-time. In this overview article, we survey the data landscape around COVID-19, with a focus on how such datasets have aided modeling and response through different stages so far in the pandemic. We also discuss some of the current challenges and the needs that will arise as we plan our way out of the pandemic.

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Figures

**Figure 1:**
CDC Pandemic Intervals Framework and WHO phases for influenza pandemic

**Figure 2:**
Summary of the data needs in different stages described in Section 3.

See this image and copyright information in PMC

References

1. Adhikari Bijaya, Xu Xinfeng, Ramakrishnan Naren, and Prakash B. Aditya. Epideep: Exploiting embeddings for epidemic forecasting. In Proceedings of the 25th ACM SIGKDD International Conference on Knowledge Discovery & Data Mining, KDD ‘19, page 577–586, New York, NY, USA, 2019. Association for Computing Machinery. 10.1145/3292500.3330917 - DOI
1. Perone Gaetano. An arima model to forecast the spread and the final size of covid-2019 epidemic in italy (first version on ssrn 31 march). SSRN Electronic Journal, 03 2020.
1. Desai Angel, Kraemer Moritz, Bhatia Sangeeta, Cori Anne, Nouvellet Pierre, Herringer Mark, Cohn Emily, Carrion Malwina, Brownstein John, Madoff Lawrence, and Lassmann Britta. Real-time epidemic forecasting: Challenges and opportunities. Health Security, 17:268–275, August 2019. - PMC - PubMed
1. Reich Nicholas G., Craig J McGowan Teresa K. Yamana, Tushar Abhinav, Ray Evan L., Osthus Dave, Kandula Sasikiran, Brooks Logan C., Willow Crawford-Crudell Graham Casey Gibson, Moore Evan, Silva Rebecca, Biggerstaff Matthew, Johansson Michael A., Rosenfeld Roni, and Shaman Jeffrey L. Accuracy of real-time multi-model ensemble forecasts for seasonal influenza in the u.s. PLoS Computational Biology, 15, 2019. - PMC - PubMed
1. Funk Sebastian, Camacho Anton, Kucharski Adam J., Eggo Rosalind M., and Edmunds W. John. Real-time forecasting of infectious disease dynamics with a stochastic semi-mechanistic model. Epidemics, 22:56 – 61, 2018. The RAPIDD Ebola Forecasting Challenge. - PMC - PubMed

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[1] Adhikari Bijaya, Xu Xinfeng, Ramakrishnan Naren, and Prakash B. Aditya. Epideep: Exploiting embeddings for epidemic forecasting. In Proceedings of the 25th ACM SIGKDD International Conference on Knowledge Discovery & Data Mining, KDD ‘19, page 577–586, New York, NY, USA, 2019. Association for Computing Machinery. 10.1145/3292500.3330917 - DOI

[2] Adhikari Bijaya, Xu Xinfeng, Ramakrishnan Naren, and Prakash B. Aditya. Epideep: Exploiting embeddings for epidemic forecasting. In Proceedings of the 25th ACM SIGKDD International Conference on Knowledge Discovery & Data Mining, KDD ‘19, page 577–586, New York, NY, USA, 2019. Association for Computing Machinery. 10.1145/3292500.3330917 - DOI

[3] Perone Gaetano. An arima model to forecast the spread and the final size of covid-2019 epidemic in italy (first version on ssrn 31 march). SSRN Electronic Journal, 03 2020.

[4] Perone Gaetano. An arima model to forecast the spread and the final size of covid-2019 epidemic in italy (first version on ssrn 31 march). SSRN Electronic Journal, 03 2020.

[5] Desai Angel, Kraemer Moritz, Bhatia Sangeeta, Cori Anne, Nouvellet Pierre, Herringer Mark, Cohn Emily, Carrion Malwina, Brownstein John, Madoff Lawrence, and Lassmann Britta. Real-time epidemic forecasting: Challenges and opportunities. Health Security, 17:268–275, August 2019. - PMC - PubMed

[6] Desai Angel, Kraemer Moritz, Bhatia Sangeeta, Cori Anne, Nouvellet Pierre, Herringer Mark, Cohn Emily, Carrion Malwina, Brownstein John, Madoff Lawrence, and Lassmann Britta. Real-time epidemic forecasting: Challenges and opportunities. Health Security, 17:268–275, August 2019. - PMC - PubMed

[7] Reich Nicholas G., Craig J McGowan Teresa K. Yamana, Tushar Abhinav, Ray Evan L., Osthus Dave, Kandula Sasikiran, Brooks Logan C., Willow Crawford-Crudell Graham Casey Gibson, Moore Evan, Silva Rebecca, Biggerstaff Matthew, Johansson Michael A., Rosenfeld Roni, and Shaman Jeffrey L. Accuracy of real-time multi-model ensemble forecasts for seasonal influenza in the u.s. PLoS Computational Biology, 15, 2019. - PMC - PubMed

[8] Reich Nicholas G., Craig J McGowan Teresa K. Yamana, Tushar Abhinav, Ray Evan L., Osthus Dave, Kandula Sasikiran, Brooks Logan C., Willow Crawford-Crudell Graham Casey Gibson, Moore Evan, Silva Rebecca, Biggerstaff Matthew, Johansson Michael A., Rosenfeld Roni, and Shaman Jeffrey L. Accuracy of real-time multi-model ensemble forecasts for seasonal influenza in the u.s. PLoS Computational Biology, 15, 2019. - PMC - PubMed

[9] Funk Sebastian, Camacho Anton, Kucharski Adam J., Eggo Rosalind M., and Edmunds W. John. Real-time forecasting of infectious disease dynamics with a stochastic semi-mechanistic model. Epidemics, 22:56 – 61, 2018. The RAPIDD Ebola Forecasting Challenge. - PMC - PubMed

[10] Funk Sebastian, Camacho Anton, Kucharski Adam J., Eggo Rosalind M., and Edmunds W. John. Real-time forecasting of infectious disease dynamics with a stochastic semi-mechanistic model. Epidemics, 22:56 – 61, 2018. The RAPIDD Ebola Forecasting Challenge. - PMC - PubMed

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This is a preprint.

Data-driven modeling for different stages of pandemic response

Affiliations

Data-driven modeling for different stages of pandemic response

Authors

Affiliations

Update in

Abstract

Figures

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References

Publication types

Grants and funding

LinkOut - more resources

Full Text Sources

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Research Materials